利用酸沉淀法提高蛋白介导 h-MoO3 的结晶性能,从而改善对多种耐药细菌的抗菌特性

IF 2.7 4区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Journal of Cluster Science Pub Date : 2024-05-09 DOI:10.1007/s10876-024-02626-9
M. Dhanasekar, Mudaliar Mahesh Margoni, Govindan Rajivgandhi, Gnansekaran Chackaravarthi, Muthuchamy Maruthupandy, Nandhu Suresh, V. Krishna, Ali Akbari-Fakhrabadi, Natesan Manoharan, Franck Quero, N. Asokan, Sakthivel Sankaran, Naiyf S. Alharbi
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引用次数: 0

摘要

利用蛋清与 MoO3 前驱体合成了六方三氧化钼(h-MoO3),并通过溶液化学沉淀技术用硝酸(HNO3)对其进行了进一步处理。XRD 分析证实,经 HNO3 处理和未经 HNO3 处理的 h-MoO3 都形成了六方晶系的可转移相。随后的结果表明,与未经处理的 h-MoO3 相比,经过 HNO3 处理的 h-MoO3 的结晶性能有所提高。拉曼和傅立叶变换红外分析证实了 h-MoO3 的形成,在比较经过和未经 HNO3 处理的 h-MoO3 时,可以观察到峰值强度的变化,这也是由于样品的晶体结构发生了变化。根据陶氏图(Tauc plot)得出,经 HNO3 处理和未经 HNO3 处理合成的 h-MoO3 的带隙分别为 3.17 eV 和 3.26 eV。通过 HRSEM 和 HRTEM 观察,可以确认经 HNO3 处理和未经 HNO3 处理的 h-MoO3 分别形成了纳米棒和纳米板状结构。此外,经 HNO3 处理的 h-MoO3 结晶度增加,与未经处理的 h-MoO3 相比,显示出更高的抗菌活性,对耐多药(MDR)大肠杆菌和肺炎双球菌的抑制区分别为 14 ± 1 毫米和 12 ± 1 毫米。随后,经 HNO3 处理的 h-MoO3 的定量分析显示,在 250 µg/mL 浓度下,对大肠杆菌和肺炎双球菌的抑制率分别为 94% 和 96%。共焦激光扫描电子显微镜和扫描电子显微镜显示,经 HNO3 处理的 h-MoO3(结晶度提高)对大肠杆菌和肺炎双球菌的氧化应激介导的膜损伤和表面形态改变。此外,经 HNO3 处理的 h-MoO3 对人肺泡上皮细胞系(A549)的细胞毒性极小,表明这种材料是良性的。本研究表明,在蛋清存在的情况下合成的经 HNO3 处理的 h-MoO3 结晶性增强,可被视为抗 MDR 细菌的一种有前途的替代药物靶标材料。
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Enhanced Crystallinity Behavior of Egg White Mediated h-MoO3 Using Acid Precipitation Method for Improved Anti-Bacterial Properties against Multi Drug Resistant Bacteria

Hexagonal molybdenum trioxide (h-MoO3) was synthesized using egg white with MoO3 precursor, which was further treated with nitric acid (HNO3) by solution-based chemical precipitation technique for comparison without treatment. The XRD analysis confirms the formation of metastable phase with hexagonal crystal system for h-MoO3 with and without HNO3 treatment. Subsequently, the result indicate that the HNO3 treated h-MoO3 shows enhanced crystalline behavior compared to untreated h-MoO3. Raman and FTIR analysis confirmed the formation of h-MoO3 where the variation in intensity of the peaks were observed when comparing h-MoO3 with and without HNO3 treatment as well as due to the changes in the crystalline structure of the samples. The band gaps obtained from Tauc plot for the synthesized h-MoO3 with and without HNO3 treatment were 3.17 eV and 3.26 eV, respectively. Observations by HRSEM and HRTEM allowed confirming the formation of nanorod and nanoplate like structures for h-MoO3 treated with and without HNO3, respectively. In addition, the increased crystallinity of the HNO3 treated h-MoO3 was displayed higher anti-bacterial activity than untreated h-MoO3 with zones of inhibition values of 14 ± 1 and 12 ± 1 mm against multi drug resistant (MDR) E. coli and K. pneumoniae, respectively. Subsequently, the quantitative analysis of HNO3 treated h-MoO3 demonstrated 94% and 96% inhibition against E. coli and K. pneumoniae, respectively, at 250 µg/mL concentration. Oxidative stress mediated membrane damages and surface morphology alterations were observed after exposure of HNO3-treated h-MoO3 (improved crystallinity) against E. coli and K. pneumoniae as suggested by confocal laser scanning electron microscopy and scanning electron microscopy. Furthermore, very minimal cytotoxicity to human alveolar epithelial cell line (A549) for HNO3 treated h-MoO3 was observed, suggesting that this material is benign. The present study indicates that the enhanced crystallinity of HNO3 treated h-MoO3 synthesized in the presence of egg white can be considered as a promising alternative drug target material to fight against MDR bacteria.

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来源期刊
Journal of Cluster Science
Journal of Cluster Science 化学-无机化学与核化学
CiteScore
6.70
自引率
0.00%
发文量
166
审稿时长
3 months
期刊介绍: The journal publishes the following types of papers: (a) original and important research; (b) authoritative comprehensive reviews or short overviews of topics of current interest; (c) brief but urgent communications on new significant research; and (d) commentaries intended to foster the exchange of innovative or provocative ideas, and to encourage dialogue, amongst researchers working in different cluster disciplines.
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